Kinetics of Diffusional and Non-Diffusional Phase Transformations
*Course of Choice
3-0-3
Characterization
**Course of Choice
3-0-3
Computations
*Courses in Characterization (could include not limited to):
MSE 6105 Diffraction Studies
MSE 6110 Transmission Electron Microscopy
MSE 6120 Quantitative Characterization of Microstructures
MSE 6130 Surface Characterization
MSE 8803 Scattering Theory
CHEM 6172 Physical Methods in Inorganic Chemistry
CHEM 6181 Chemical Crystallography
CHEM 6283 Electroanalytical Chemistry
CHEM 6572 Macromolecular Structure
CHEM 6752 Polymer Characterization
**Courses in Computations (could include not limited to):
MSE 6795 Mathematical, Statistical, and Computational Techniques in Materials Science
CHEM 6382 Computational Methods in Organic Chemistry and Biochemistry
ISyE 6739 Basic Statistical Methods
ME 6104 Computer-aided Design
ME 6124 Finite-Element Method: Theory & Practice
MATH 4255 Monte Carlo Methods
MATH 4247 Partial Differential Equations I
MATH 4348 Partial Differential Equations II
M.S. with thesis
12 course hours in major
12 course hours at 6000 or higher
18 total course hours required and
A thesis approved by a committee of the graduate faculty
M.S. without thesis
18 course hours in the major
21 course hours at 6000 or higher and
30 course hours required
Additional M.S. requirements include
3.0 GPA at completion
At least three of the five core courses must be taken
MSE 8001, Seminar (1-0-1), is required for all graduate students For the thesis option: the seminar is in addition to the eighteen hours of courses listed above For the non-thesis option: it can be included in the thirty required hours
Ph.D. Requirements
Students must complete all core courses with a grade of ”B” in each course. A maximum of one course can be repeated. Withdrawal will be considered an attempt. (15 hours)
Six hours from general MSE curriculum (6 hours)
Nine hours in an approved minor (9 hours)
Prepare and submit a research proposal for the qualifying exam to the Graduate Committee within 30 days of completing Thermodynamics, Crystallography & Kinetics. Proposals must
be submitted by Summer of 2nd year or 4 semesters (not including Summer). Courses in Computations and Characterization may be completed after qualifying exam.
Pass the oral qualifying exam
Complete all course work with a minimum GPA of 3.0
Write, present and defend a Ph.D. dissertation
MSE 8001, Seminar (1-0-1), is required for all graduate students (1 hour)
Additional Ph.D. Requirements for students entering directly from B.S. program
Six additional hours of course work in the major (6 hours)
Note: A total of 37 credit hours are required for Ph.D. direct from B.S.
